The reactive force field (ReaxFF) molecular dynamics (MD) simulations were performed to mimic the two-phase equilibrium between silica melts and bulk water at conditions of 1473 K and 100–700 MPa. The ...

Application of quasi-oppositional driving training-based optimization for a feasible optimal power flow solution of renewable power systems with a unified power flow controller Tushnik Sarkar 1 ...

This webinar uses a vessel case study to illustrate the advantages of integrated, model-based system simulation in marine engineering. The panelists will discuss how leveraging the digital thread to ...

Modeling and simulation at the system level greatly increases the probability of achieving an optimized powertrain system. This article offers insight into designing high-efficiency ...

Learn how MATLAB can model, simulate, analyze, and optimize control systems in power engineering, with examples of PID tuning, fault simulation, and microgrid optimization.

In this paper, we present a new Matlab-based toolbox for power system analysis, called MatDyn. It is open-source software, and available for everyone to download. Its design philosophy is based on the ...

It is well-known that distributed parameter computational fluid dynamics (CFD) models provide more accurate results than conventional, lumped-parameter unit operation models used in process simulation ...

In addition, the impacts of the presence of DG on power flow and the modeling of the problem’s objective function are examined. To solve the problem of reconfiguration and placement of a ...

The numerical methods: Gauss-Seidel, Newton-Raphson and Fast Decoupled methods were compared for a power flow analysis solution. Simulation is carried out using Matlab for test cases of IEEE 9-Bus, ...